G1426 Datasheet, PDF(11/13 Page) Global Mixed-mode Technology Inc

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G1426 Datasheet, PDF (11/13 Pages) Global Mixed-mode Technology Inc – 2.2W Stereo Audio Amplifier

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Global Mixed-mode Technology Inc.

G1426

Application Information

Bridged-Tied Load Mode Operation

G1426 has two linear amplifiers to drive both ends of

the speaker load in Bridged-Tied Load (BTL) mode

operation. Figure 1 shows the BTL configuration. The

differential driving to the speaker load means that

when one side is slewing up, the other side is slewing

down, and vice versa. This configuration in effect will

double the voltage swing on the load as compared to a

ground reference load. In BTL mode, the peak-to-peak

voltage VO(PP) on the load will be two times than a

ground reference configuration. The voltage on the

load is doubled, this will also yield 4 times output

power on the load at the same power supply rail and

loading. Another benefit of using differential driving

configuration is that BTL operation cancels the dc off-

sets, which eliminates the dc coupling capacitor that is

needed to cancelled dc offsets in the ground reference

configuration. Low-frequency performance is then lim-

ited only by the input network and speaker responses.

Cost and PCB space can be minimized by eliminating

the dc coupling capacitors.

VDD

Vo(PP)

2xVo(PP)

Optimizing DEPOP Operation

Circuitry has been implemented in G1426 to mini-

mize the amount of popping heard at power-up and

when coming out of shutdown mode. Popping oc-

curs whenever a voltage step is applied to the

speaker and making the differential voltage gener-

ated at the two ends of the speaker. To avoid the

popping heard, the bypass capacitor should be

chosen promptly, 1/(CBx100kâ¦) â¦ 1/(CI*(RI+RF)).

Where 100kâ¦ is the output impedance of the

mid-rail generator, CB is the mid-rail bypass capaci-

tor, CI is the input coupling capacitor, RI is the input

impedance, RF is the gain setting impedance which

is on the feedback path. CB is the most important

capacitor. Besides it is used to reduce the popping,

CB can also determine the rate at which the amplifier

starts up during startup or recovery from shutdown

mode.

De-popping circuitry of G1426 is shown on Figure 2.

The PNP transistor limits the voltage drop across

the 225kâ¦ by slewing the internal node slowly when

power is applied. At start-up, the voltage at

BYPASS capacitor is 0. The PNP is ON to pull the

mid-point of the bias circuit down. So the capacitor

sees a lower effective voltage, and thus the charg-

ing is slower. This appears as a linear ramp (while

the PNP transistor is conducting), followed by the

expected exponential ramp of an R-C circuit.

-Vo(PP)

VDD

Figure 1

SHUTDOWN Mode Operations

G1426 implements the shutdown mode operations

to reduce supply current, IDD, to the absolute mini-

mum level during nonuse periods for battery-power

conservation. When the shutdown pin (pin 1) is

pulled high, all linear amplifiers will be deactivated

to mute the amplifier outputs. And G1426 enters an

extra low current consumption state, IDD is smaller

than 2ÂµA. Shutdown pin should never be left un-

connected, this floating condition will cause the am-

plifier operations unpredictable.

VDD/2

Vo(PP)+VDD/2

Vo(PP)

VDD/2

Figure 2

Ver: 1.0

Dec 04, 2003

TEL: 886-3-5788833

http://www.gmt.com.tw

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